Your search keyword '"Averkiev SV"' showing total 5 results

1. IR laser and heat-induced changes in annulus fibrosus collagen structure.

Author

Ignatieva NY, Zakharkina OL, Andreeva IV, Sobol EN, Kamensky VA, Myakov AV, Averkiev SV, and Lunin VV

Subjects

Animals, Biomechanical Phenomena, Birefringence, Fibrocartilage radiation effects, Intervertebral Disc chemistry, Intervertebral Disc radiation effects, Lasers, Protein Conformation radiation effects, Rabbits, Thermodynamics, Fibrillar Collagens chemistry, Fibrocartilage chemistry, Hot Temperature adverse effects, Infrared Rays adverse effects

Abstract

The purpose of this study was to characterize essential changes in the structure of annulus fibrosus (AF) after hydrothermal and infrared (IR) laser treatment and to correlate these results with alterations in tissue state. Polarization-sensitive optical coherence tomography imaging was used to measure collagen birefringence in AF. Differential scanning calorimetry was used as a complementary technique, providing detailed information on thermodynamic processes in the tissue. Birefringence, peak of the denaturation endotherm, and the enthalpy of denaturation (DeltaHm) were determined before and after hydrothermal heat treatment (85 degrees C for 15 min) and non-ablative Er:glass fiber laser exposures on AF in the whole disk (vertebrae-disk-vertebrae complex). Our data have demonstrated quantitative differences between results of laser and hydrothermal heating. Birefringence did not disappear and DeltaHm did not change after treatment in the water bath, but loss of birefringence and a decrease in the enthalpy did occur after laser exposure. These results could be explained by the photomechanical effect of laser irradiation. We suggest that thermo-mechanical stress played a dominant role in the disruption of the collagen network of AF under non-homogeneous laser heating.

Published

2007

2. Changes in the structure of collagen in the annulus fibrosus under thermal or IR-laser treatment.

Author

Ignatieva NY, Zakharkina OL, Sobol EN, Lunin VV, Kamensky VA, Andreeva IV, Averkiev SV, and Myakov AV

Subjects

Animals, Calorimetry, Fibrillar Collagens chemistry, Intervertebral Disc radiation effects, Rabbits, Temperature, Tomography, Optical Coherence, Collagen chemistry, Collagen radiation effects, Extracellular Matrix radiation effects, Fibrillar Collagens radiation effects, Hot Temperature adverse effects, Infrared Rays adverse effects, Lasers adverse effects

Published

2007

3. [Changes in physicochemical characteristics of rabbit sclera as a result of reinforcement treatment].

Author

Ignat'ev NIu, Averkiev SV, Iomdina EN, Ivashchenko ZhN, Baratova LA, Lukashina EV, and Lunin VV

Subjects

Animals, Calorimetry, Differential Scanning, Collagen Type I analysis, Fibroblasts chemistry, Hot Temperature, Rabbits, Temperature, Connective Tissue chemistry, Ethers chemistry, Prostheses and Implants, Sclera chemistry, Sclera surgery

Abstract

It has been shown by biochemical analysis and differential scanning calorimetry that the connective tissue formed around a transplant as a result of sclero-reinforcing interference (capsula) is similar to intact sclera. The main component of newly formed capsules is collagen I whose fibers have a perfect structure and the amount of cross-links sufficient to provide normal thermomechanical properties. A fraction of collagen having thermally labile "immature" cross-links in capsules formed around the transplant impregraned with Panaxal has been detected by differential scanning calorimetry. It was suggested that fibroblasts in tissues of these capsules have a high synthetic activity.

Published

2007

4. Thermal stability of collagen II in cartilage.

Author

Ignat'eva NY, Sobol' EN, Averkiev SV, Lunin VV, Grokhovskaya TE, Bagratashvili VN, and Yantsen ES

Subjects

Animals, Cattle, Chymotrypsin chemistry, Protein Denaturation, Trypsin chemistry, Cartilage chemistry, Collagen Type II chemistry, Temperature

Published

2004

5. [Effect of infrared laser radiation on sorption of dry cartilage and connective tissue preparations].

Author

Averkiev SV, Ignat'eva NIu, Lunin VV, and Sobol' EN

Subjects

Animals, Cartilage metabolism, Connective Tissue metabolism, Mice, Cartilage radiation effects, Connective Tissue radiation effects, Infrared Rays, Lasers

Abstract

Cartilaginous and connective tissues were exposed to a moderate-intensity IR laser treatment with IR radiometric temperature control. The isotherms of water sorption by dry preparations of intact and laser-treated tissues were obtained and calculated in terms of well known models. It was shown that the sorption capacity of a monolayer of tissues decreases with increasing temperature during laser treatment. Changes in the supramolecular structure of the extracellular matrix of tissues (loss of regularity) upon IR laser exposure are discussed.

Published

2003